The Planck Length multiple gives us the smallest of the cells, the sperm cell (50 micrometers) and the largest cell, the human egg (1000 micrometers). Between the two is a wide range of all other cells and other things like a range for the thickness of hair and the thickness of paper. Here we are approximately halfway between the Planck Length and the size of the known universe. Although this doubling of the Planck Length is a size that defines our common experience, the other doublings of the Planck units are not as straightforward..101st Planck Time doubling: 1.366×10-13 second is between a picosecond at 10-12 and a femtosecond (fs) at one quadrillionth of one second or 10-15 seconds. We are well within the measurable units of time. This cycle time is in the range of ultraviolet light and femtosecond lasers. At 140 fs electrons are localized onto individual atoms (bromine)..101st Planck Length doubling: 40.975.microns There is the exact doubling of the Planck Length and there is also a range establish by the notations that precede and follow. That is 20.487.microns at the 100th notation and 81.95 microns at the 102nd notation. So, the true range of this notation would be from about 30.5 microns (.03 mm) to 61.3 microns (.061 mm) and would include many common objects vital to our life.

The conundrum. When we began our work on this scale of the universe, the Planck Length was the only facet that was followed. It took us three years to learn about Planck and his base units, and to gain the confidence that it was okay to multiply each unit by 2. When we finally began to add Planck Time and began to contemplate the simple logic, Notation #1 was the starting point of time and notation #202 held the current time and time increasingly appeared discrete, quantized, and derivative. So, at that point we began thinking about the necessary relations to time and how it would always be localized by notation. That pushed our thinking and we began our earnest study of cosmology, the big bang theory, quantum gravity, and the work of Carlo Rovelli, Richard Muller, and Neil Turok. True scholars, they were having difficulties with the nature of time as well.

101stPlanck Mass doubling: 5.5181×1021kilograms Compare this mass to earth, 5.972 × 1024 kg, or the moon, 7.34767309×1022 kg, and we have a sense of how exquisitely dense and entirely inexplicable this mass appears to be. However, there are additional calculations to be made to consider the three dimensions of this mass or m3 as well as its application to the range from 30.5 microns (.03 mm) to 61.3 microns (.061 mm).

101st Planck Charge doubling: 4.755×1012 Coulombs We are not sure yet how to interpret the exact doubling of the Planck Charge, and the coulombs number and range. We are attempting to find scholars to help us. To say the least, there is no simple or easy logic for these numbers; this notation is as profound and unique a challenge as the notations 31 and 67..From our Planck Temperature scale: 55.884 Kelvin

The human body temperature is 98.6 degrees Fahrenheit. That is equal to 310.15 Kelvin between notations 103 and 104.

The Sun’s temperature, 5778 K, is between notations 107 and 108.

The big bang theory’s Epochs. The Hadron Epoch theoretically begins at Notation 104 from 10−6 seconds to 10−1 seconds and goes up to Notation 141 and then begins the Lepton Epoch. The big bang treats these epochs as things of the distant past. We call these epochs, processes, and postulate each is an intimate and basic part of the operational universe and today these processes would now be concentrated within Notations 66 and 67..Open Questions: Are there any Planck multiples that contradict any element of today’s science? Half way through our set of six, it appears that this natural inflation of these numbers creates a picture of the universe that is more predictive and particularized than any theory given today and there is nothing that stands outside the known mathematical and logic boundaries within science today.

Please note: The data about 107th notation at 2.6224 millimeters is now maintained on its own page.